PLoS Genetics (Feb 2016)

A Point Mutation in p190A RhoGAP Affects Ciliogenesis and Leads to Glomerulocystic Kidney Defects.

  • Katherine Stewart,
  • Yaned Gaitan,
  • Maxwell E R Shafer,
  • Lamine Aoudjit,
  • Di Hu,
  • Richa Sharma,
  • Mathieu Tremblay,
  • Hidetaka Ishii,
  • Michael Marcotte,
  • Daniela Stanga,
  • You Chi Tang,
  • Sami Kamel Boualia,
  • Alana H T Nguyen,
  • Tomoko Takano,
  • Nathalie Lamarche-Vane,
  • Silvia Vidal,
  • Maxime Bouchard

DOI
https://doi.org/10.1371/journal.pgen.1005785
Journal volume & issue
Vol. 12, no. 2
p. e1005785

Abstract

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Rho family GTPases act as molecular switches regulating actin cytoskeleton dynamics. Attenuation of their signaling capacity is provided by GTPase-activating proteins (GAPs), including p190A, that promote the intrinsic GTPase activity of Rho proteins. In the current study we have performed a small-scale ENU mutagenesis screen and identified a novel loss of function allele of the p190A gene Arhgap35, which introduces a Leu1396 to Gln substitution in the GAP domain. This results in decreased GAP activity for the prototypical Rho-family members, RhoA and Rac1, likely due to disrupted ordering of the Rho binding surface. Consequently, Arhgap35-deficient animals exhibit hypoplastic and glomerulocystic kidneys. Investigation into the cystic phenotype shows that p190A is required for appropriate primary cilium formation in renal nephrons. P190A specifically localizes to the base of the cilia to permit axoneme elongation, which requires a functional GAP domain. Pharmacological manipulations further reveal that inhibition of either Rho kinase (ROCK) or F-actin polymerization is able to rescue the ciliogenesis defects observed upon loss of p190A activity. We propose a model in which p190A acts as a modulator of Rho GTPases in a localized area around the cilia to permit the dynamic actin rearrangement required for cilia elongation. Together, our results establish an unexpected link between Rho GTPase regulation, ciliogenesis and glomerulocystic kidney disease.